JP2006502666A - Quality of service mapping between various types of wireless communication systems - Google Patents

Abstract

Disclosed are methods and systems for mapping quality of service requirements between various types of wireless communication systems. Perform the mapping according to the type of system that supplies the mapping.

Description

  The present invention relates generally to wireless communication systems, and more particularly to quality of service in wireless communication systems.

  The particular type of wireless communication system in which a wireless transmit / receive unit (WTRU) operates can be varied. For example, a user can move from one area where a certain type of wireless communication system is located to another area where a different type of wireless communication system is located. In addition, the user can be placed in an area that has the freedom to choose between two or more types of wireless communication systems.

  Quality of service requirements ensure that different types of services are maintained at appropriate performance levels by providing different types of services in a wireless communication system. However, quality of service requirements do not exist in some systems, are defined differently in different systems, and are often improperly defined. For example, a certain type of service is maintained in a system with a quality of service based on a certain frame error rate (FER). However, the quality of service of the same service in another system may be improperly defined or, for example, signal to interference ratio (SIR), average number of retransmitted packets, or other parameters other than FER May be defined by quality of service based on different parameters. This creates a problem in operating the WTRU across different types of wireless communication systems.

  Therefore, it would be desirable for mapping between various types of wireless communication systems to be able to ensure seamless operation across systems.

  The present invention provides a method and system for mapping quality of service requirements between various types of wireless communication systems. The mapping is performed according to the type of system for which the mapping is supplied across the system.

  The present invention will be described with reference to the drawings, wherein like reference numerals represent like elements throughout.

  It should be noted that the term base station is not limited to base stations, but includes Node Bs, location controllers, access points, or other types of interface devices in a wireless environment. The term wireless transmit / receive unit (WTRU) is not limited to user equipment, but includes mobile stations, fixed or mobile subscriber units, pagers, or other types of equipment operable in a wireless environment. In this specification, the terms system and network are used interchangeably. It is similar to the case where the term translation and mapping refers to the conversion of quality of service (QoS) requirements between various types of wireless communication systems.

  Referring now to FIG. 1, the approximate coverage area of a plurality of different types of wireless communication systems 12, 14, 16, 18 is shown. The coverage areas of the systems 12, 14, 16, 18 are shown in a specific arrangement, but of course any arrangement of arrangements can be made based on the operator's preference. Further, although four types of wireless communication systems are shown for purposes of illustrating the present invention, any number of types of wireless communication systems may be used.

  Each wireless communication system includes several types of services, and specific QoS requirements are set for each type of service. Of particular importance is the type of service associated with the user data, eg bearer service. A bearer service is any type of service that enables transmission of user information signals between a user and a network interface in a wireless communication system.

  Bearer service QoS requirements are defined at a higher level, for example, in terms of maximum transmission delay, delay variation, bit or frame error rate (ie, BER or FER), and data rate. In general, QoS requirements for bearer services are defined using at least one of these four parameters, but there is no standardization of QoS requirements across different types of wireless communication systems. Thus, in the present invention, QoS requirements between different types of wireless communication systems are mapped to allow seamless operation across different types of wireless communication systems. The mapping of QoS requirements can be performed, for example, on the system itself or on the WTRU as part of the handover process and can be performed across any type of wireless communication system now known or later developed. it can.

  Referring now to FIG. 2, examples of different types of wireless communication systems 12, 14, 16, 18 are shown. In this example, systems 12 and 18 are wireless local area network (WLAN) type wireless communication systems, while systems 14 and 16 are cellular type wireless communication systems. The WLAN type wireless communication system includes a wireless local area network, a wireless personal area network, a metropolitan area network, Bluetooth, 802.11, and the like, and is collectively referred to as a WLAN type wireless communication system. Cellular wireless communication systems include all types of cellular systems including, for example, UMTS-FDD, UMTS-TDD, EDGE, GSM / GPRS, CDMA2000, and TD-SCDMA, collectively, cellular It is called a wireless communication system. In this embodiment, a WTRU, such as WTRU 10, can operate seamlessly across various wireless communication systems 12, 14, 16, 18.

  For example, WTRU 10 is utilizing a voice conversation application or service in system 14, which is a CDMA2000 system for exemplary purposes, and switches to system 16, which is a UMTS system for exemplary purposes, for any reason. Assume that In the scenario, the QoS requirements for voice conversation applications are defined differently for CDMA2000 than for UMTS. Thus, to continue execution of a voice conversation application (ie, keep a user's telephone conversation), the WTRU 10 is configured with an interface, such as a QoS translator, and the QoS requirements specified in CDMA2000 language. Is translated into UMTS words.

  Note that by utilizing QoS translators, seamless operation between any two types of wireless communication systems can be guaranteed. As an example, a WTRU that operates beyond a UMTS system and a WLAN type wireless communication system is described below.

  Still referring to FIG. 2, system 16 is a UMTS system, and WTRU 10 has an interactive game application in progress, thereby executing the application in UMTS of system 16, and WTRU 10 is a WLAN type system. Suppose we are trying to hand over to a system 18.

  As described above, since a wireless communication system has a specific QoS definition for each service type, different languages are used when transmitting information via bearer services. As an example, in UMTS, delay and BER requirements are often defined as shown in the table below (ie, Table 1). The table below is taken from the 3rd Generation Partnership Project Technical Standard (3GPP TS) 22105 v620.

  Similarly, QoS can be defined based on end-user experience with real-time, interactive gaming, and streaming applications. As an example, Table 2 below lists the UMTS end-user QoS targets. This table is also taken from 3GPP TS 22105 v620.

  Thus, in this example, the exemplary QoS definition in the above table for interactive games would need to be translated (ie, mapped) to any definition used in system 18. By translating the interactive game QoS requirements, it would be possible to continue the interactive game despite the user switching to the WLAN type system 18.

  The conversion or mapping between the various types of wireless communication systems can be performed in any way desired, although an important point is to do the mapping. By way of example only, the following table (ie, Table 3) shows a possible mapping of QoS requirements between UMTS systems and WLAN type systems. In this table, system 18 is assumed to be an 802.11 type network, but as described above, system 18 may be any type of WLAN type system.

  It is important to note that the mapping can be performed not only on the WTRU, but also on the system itself. Of course, when running on the system, the mapping can be performed on any desired system component. 3 and 4 are examples where QoS requirements conversion is performed in the WTRU and will be described below.

Referring now to FIG. 3, a WTRU 50 is shown that can map QoS requirements of various wireless communication systems across different types of wireless communication systems. The WTRU 50 includes an application 52 and a plurality of bearers 54 ₁ , 54 ₂ , and 54 _n that are collectively referred to using reference numeral 54. In the present embodiment, the application 52 includes a mapping function. That is, in the example outlined above, the user is operating on the UMTS system 16 prior to the handover. Therefore, the application 52 is supplied QoS requirements UMTS bearer, for example, the bearer 54 _1, defines the QoS requirements as specified in UMTS. Once the user when a handover to a system 18 of the WLAN type, transmits the information to the system 18 using different bearers, such as bearers _542. However, information transmission in the WLAN type system 18, when transmitting information over bearer 54 _2, and the difference is not QoS defined is used, having different QoS definitions. This is an issue where the application is started while running on the UMTS system 16 and the application 52 is propagated with respect to UMTS. Thus, when a user hands over to the system 18, in order to continue execution of the application, the application uses the UMTS QoS definition and stops sending information via the bearer 54 ₁ , so that the WLAN type system using appropriate QoS definitions for 18, via the bearer 54 ₂ starts to transmit information. As noted above, it should be noted that the system 18 can be any type of WLAN type system, and therefore the appropriate QoS definition can be varied depending on the system. It should also be noted that it is desirable that the number of bearers 54 supplied matches the number of system types across the WTRU that can operate seamlessly. By configuring the application, it is desirable to convert between all system types for which bearers etc. are provided.

  Referring now to FIG. 4, another embodiment is shown, and further, the WTRU 50 can operate seamlessly across any number of various types of wireless communication systems. In this embodiment, the conversion or mapping function is separated from the application 52. This device may be preferred in that the application can operate normally without being responsible for translating the QoS requirements of various types of wireless communication systems.

In this embodiment, it is desirable that translators 56 ₂ , 56 _n be supplied between the application and each bearer except for one. Thus, if application 52 starts with a particular type of system, for example, CDMA2000, and the user continues to operate within that system, application 52 directly communicates with bearer 54 ₁ without having to translate the CDMA2000 QoS requirements. Can communicate. If a user does not attempt to handover from one system type to another, it is desirable to serve all types of wireless communication systems in this manner. That is, for example, if WTRU 50 switches from CDMA2000 to UMTS and initiates a UMTS application, application 52 and bearer 54 ₁ will communicate directly using the UMTS QoS requirements.

When a user performs a handover from a given system type to another system type, the application 52 communicates with the bearer corresponding to the system to which the user is handed over. Further, the application 52 continues to run normally, but communications between the application and the corresponding bearer are properly translated before being received by the corresponding bearer. For example, assuming a handover from a GSM system to an 802.11 network, once the handover occurs, communication from application 52 is routed to an 802.11 bearer, eg, bearer 54 _n . The application is the one that the user started while operating in the GSM system, so the application specifies the QoS requirements for GSM, but the QoS requirements are translated by the translator 56 _n corresponding to the bearer 54 _n and the result , Providing users with seamless operation across GSM and 802.11 systems.

  When performing a handover between different system types and performing the conversion or mapping function in the system itself, the bearer remains specified by the original system from which the handover was performed. However, the system to which the user has handed over recognizes that the QoS requirement is communicating with the system based on the definition (or inappropriate definition) of another type of wireless communication system, and appropriately Convert. This transformation allows for seamless continuation of any application or service that the user has started with a given system type despite the user's handover to another system type. This apparatus also does not require that the WTRU performing the handover be configured as described in FIGS. 3 and 4, for example.

  As described above, mapping of QoS requirements can be done on any desired system component. However, as an example, in a cellular type wireless communication system, the mapping can be performed in the core network, and in addition, as an example, a serving GPRS support node (SGSN) or a home location register (HLR). Of course, in such a system, the mapping can also be performed at the base station or radio network controller (RNC). For WLAN type systems, the mapping can also be performed on any desired system component. As an example, the mapping can be performed at the access point, access router, or computer network portion of such a system.

  Now referring to FIG. 5, a methodology 100 for mapping QoS requirements between various types of wireless communication systems is illustrated. At step 102, the method 100 begins here to start an application or service in a particular type of wireless communication system. Then, in step 104, the QoS requirements are specified for the bearer or the like according to the QoS requirements of the specific type of wireless communication system in which the application was started.

  In step 106, it is determined whether to hand over to another type of wireless communication system. If no handover is made, the method 100 moves to step 108 where it continues until the application or service is completed or terminated. When performing a handover, the method 100 moves to step 110, where the QoS requirements are specified according to the QoS requirements of the wireless communication system to which the user is handed over. This step allows connections and / or sessions to continue seamlessly from a given system type to another system type.

  When the conversion is performed at the WTRU, the QoS requirement is specified to the bearer or the like according to the QoS requirement of the user's handover destination system. When the conversion is performed in the system, the QoS requirement is designated to the bearer or the like according to the QoS requirement of the user's handover source system, and appropriate conversion is executed by the user's handover destination system.

  Although the present invention has been described in conjunction with certain types of wireless communication systems, the present invention is not limited to such systems and can be implemented across all types of wireless communication systems. Furthermore, although cellular and WLAN type systems have been described, other types of wireless communication systems, such as infrared communication systems, for example, are naturally within the scope of the present invention.

  Furthermore, while the invention has been described in terms of various embodiments, other modifications within the scope of the invention as outlined in the appended claims will be apparent to those skilled in the art.

FIG. 2 is a diagram illustrating overlapping cover areas of various types of wireless communication systems. FIG. 2 is a diagram illustrating a plurality of wireless communication systems in which a WTRU can operate across a plurality of wireless communication systems while maintaining a requested level of quality of service. FIG. 7 illustrates an embodiment of a WTRU that can map quality of service requirements between various types of communication systems. FIG. 7 illustrates an embodiment of a WTRU that can map quality of service requirements between various types of communication systems. FIG. 7 illustrates a method by which quality of service requirements can be mapped across various types of wireless communication systems.

Claims (23)

A wireless transmit / receive unit (WTRU) configured to operate seamlessly across various types of wireless communication systems,
At least one application configured to transform quality of service requirements across various types of wireless communication systems and performing wireless services;
A unit comprising: at least one bearer for transmitting a user information signal between user network interfaces. The application is
Further configured to receive an incoming quality of service requirement specified according to a predetermined type of wireless communication system, and to convert the requirement and output the requirement according to another type of wireless communication system; The WTRU of claim 1, wherein:   3. The WTRU of claim 2, further comprising a number of bearers corresponding to the number of wireless communication systems that can be converted by the application. The first system to perform a handover from a first cellular radio communication system to a second cellular radio communication system and to continue a service initiated by the first system by the application 2. The WTRU of claim 1, wherein the quality of service requirement is converted into a quality of service requirement of the second system.   5. The WTRU of claim 4, wherein the first cellular radio communication system is a UMTS system and the second cellular radio communication system is a CDMA2000 system. A handover from a cellular radio communication system to a wireless local area network (WLAN) radio communication system, and the application of the cellular system to continue the service initiated by the application by the application 2. The WTRU of claim 1, wherein quality requirements are converted into quality of service requirements of the WLAN type system. Performing handover from a wireless local area network (WLAN) type wireless communication system to a cellular type wireless communication system, and the application of the WLAN type system to continue the service initiated by the WLAN system by the application 2. The WTRU of claim 1 that converts quality requirements into service quality requirements for the cellular system. A wireless transmit / receive unit (WTRU) configured to operate seamlessly across various types of wireless communication systems,
At least one application executing a wireless service;
At least one bearer for transmitting user information signals between a user and a network interface;
When the WTRU is handed over to various other types of wireless communication systems, between the application and the bearer that translates quality of service requirements by allowing a session established in the first wireless communication system to continue. A unit comprising: at least one translator. The translator is
Further configured to receive an incoming quality of service requirement specified according to a predetermined type of wireless communication system, and to convert the requirement and output the requirement according to another type of wireless communication system; 9. The WTRU of claim 8, wherein the WTRU is characterized.   Incoming quality of service requirements are received and routed to the appropriate translators and bearers so that the application continues to operate while the WTRU hands over between various types of wireless communication systems. The WTRU of claim 8. Performing a handover from a first cellular radio communication system to a second cellular radio communication system, and wherein the translator continues the service initiated by the first system 9. The WTRU of claim 8, wherein the quality of service requirement is converted to a quality of service requirement of the second system.   12. The WTRU of claim 11, wherein the converted quality of service requirement is transmitted via a bearer service corresponding to the second system.   12. The WTRU of claim 11 wherein the first cellular radio communication system is a UMTS system and the second cellular radio communication system is a CDMA2000 system. A handover from a cellular wireless communication system to a wireless local area network (WLAN) wireless communication system, and the translator is configured to continue the service initiated by the cellular system. 9. The WTRU of claim 8, wherein the quality of service requirement is converted into a quality of service requirement of the WLAN type system.   15. The WTRU of claim 14, wherein the converted quality of service requirement is transmitted via a bearer service corresponding to the WLAN type system. A handover from a wireless local area network (WLAN) type wireless communication system to a cellular type wireless communication system, and the application service of the WLAN type system to continue the service initiated by the WLAN system 9. The WTRU of claim 8, wherein the WTRU converts quality requirements into cellular system service quality requirements.   17. The WTRU of claim 16, wherein the converted quality of service requirement is transmitted via a bearer service corresponding to the cellular system. At least one interface device that interfaces between a wireless transceiver unit (WTRU) and a wireless communication system;
Receiving from the WTRU requesting handover to the wireless communication system, a quality of service requirement specified according to a different type of wireless communication system from which the WTRU is requesting handover, and requesting handover from the WTRU Means for converting the quality of service requirements to continue a service started in the wireless communication system.   The radio communication system according to claim 18, wherein the radio communication system is a cellular radio communication system, and the conversion of the quality of service requirement is performed in a core network.   The wireless communication system according to claim 18, wherein the wireless communication system is a wireless local area network (WLAN) type wireless communication system, and the conversion of the quality of service requirement is performed at an access point. .   The wireless communication system according to claim 20, wherein the conversion of the quality of service requirement is performed by an access router. A method for providing seamless handover between various types of wireless communication systems, comprising:
Starting an application with a wireless transceiver unit (WTRU) of a first type of wireless communication system;
Requesting a handover of the WTRU from the first system to a second type of wireless communication system;
Converting quality of service requirements from a designation of the first system to a designation of the second system;
Handing over the WTRU to the second system;
Continuing to run an application started in the first system in the second system according to the quality of service requirements specified according to the designation of the second system. 23. The method of claim 22, wherein the application continues to run on the second system using a bearer corresponding to the second system.

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